CST® Filter Designer 3D is a complete synthesis tool for narrow bandpass and diplexer filters. It offers a range of solutions throughout the design process of a
coupled-resonator filter – regardless whether it is implemented in planar, waveguide or dielectric media. CST Filter Designer 3D together with the simulation capabilities
of CST MICROWAVE STUDIO® offers the complete technology for your filter design requirements.
8th order dielectric resonator filter with three asymmetric transmission zeroes
Higher-order dielectric resonator filters are challenging to tune due to a high number of independent design parameters that need to be optimized. Simulation allows elements to be optimized individually before a full-system optimization at the end of...
Ferrite-Loaded Waveguide Antenna
The behavior of a ferrite loaded waveguide antenna is predicted first by a 2D-analytical model and second by CST MICROWAVE STUDIO®. The results of the predictions are compared with measurements and show good agreement. (Courtesy and permission of KAIST...
Bandpass Waveguide Filter with Dual Mode Cavities
This waveguide filter has been simulated with CST MICROWAVE STUDIO® general purpose frequency domain solver applying a tetrahedral mesh. This particular design is a waveguide bandpass iris filter for standard X-band military satellite communications.
Bistatic Radar Cross Section: NASA Almond Benchmark
CST MICROWAVE STUDIO® (CST MWS) is used to compute the radar cross-section (RCS) of the NASA Almond benchmark. The Time-Domain solver in CST MWS can deliver the RCS results at arbitrary frequencies defined by the user which is a tremendous advantage for...
Optimization of a 10-Way Conical Power Combiner
This article describes the use of CST MICROWAVE STUDIO® (CST MWS) in simulating and optimizing a 10-way conical transmission line power combiner operating at X-band (6-14 GHz). This device is an example of an axially symmetric power combiner, commonly...